M Niederberger scite author profile

Regional vascular responses to gradual reductions in right atrial pressure and aortic pressure were investigated in nine men. In each study, lower body negative pressure was applied in a ramp of -1 mm Hg/min for 40-50 minutes. During the range from control to -20 mm Hg, right atrial pressure (4 studies) fell from 4.2 mm Hg to -0.6 mm Hg; heart rate was slightly reduced (2 beats/min), and aortic mean pressure and pulse pressure (6 studies) were unchanged. The maximal rate of rise of aortic pressure showed no consistent trends. Forearm blood flow (30 studies) fell with the onset of lower body negative pressure and reached 67% of the control value by -20 mm Hg. Splanchnic blood flow (14 studies) was significantly reduced by -7 mm Hg and fell to 89% of control by -20 mm Hg. During the range from -20 to -50 mm Hg, right atrial pressure continued to fall. Aortic mean pressure fell slightly or was unchanged in four subjects and fell dramatically at -35 mm Hg in two subjects. Aortic pulse pressure began to fall at about -20 mm Hg and fell linearly thereafter. Heart rate paralleled aortic pulse pressure (r=-0.86 to -0.93). Forearm blood flow fell to 55% and splanchnic blood flow fell to 65% of control at -50 mm Hg. Thus, significant vasoconstriction occurred without measurable change in arterial blood pressure. We concluded that low-pressure baroreceptors, presumably in the cardiopulmonary region, initiate splanchnic and forearm vasoconstriction with more pronounced vasoconstriction occurring in the forearm.KEYS WORDS peripheral circulation heart rate lower body negative pressure blood pressure regulation forearm blood flow splanchnic blood flow low-pressure baroreceptors • A major cardiovascular adjustment to moderate hemorrhage is increased sympathetic outflow to the heart and various vascular beds. Traditionally this adjustment has been associated with carotid sinus and aortic baroreceptors (1) which clearly play important roles in regulating arterial blood pressure. More recently, however, stretch receptors in the cardiopulmonary region (low-pressure baroreceptors) have been implicated in the mediation of reflex responses to hemorrhage in dogs, cats, and rabbits (2-4). In humans, simulation of hemorrhage by mild degrees of lower body negative pressure can evoke marked forearm vasoconstriction without significant changes in heart rate, aortic mean pressure, aortic pulse pressure, or maximal rate of rise of aortic blood pressure (dP/dt max) (5). It appears that reduced pressures in the cardiopulmonary region accompanying lower body negative pressure must be the stimulus for the reflex vasoconstriction. Previous studies in man (6, 7) have implicated low-pressure baroreceptors in the reflex release of forearm vasoconstrictor tone accompanying increases in thoracic blood volume induced by postural or respiratory maneuvers.We attempted to determine whether the vasoconstriction seen in forearms during a mild degree of lower body negative pressure, which was insufficient to measurably affect arterial blood pressure, was evide...

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Competition between cutaneous vasodilator and vasoconstrictor reflexes in man.

Johnson¹,

Niederberger²,

Rowell³

et al. 1973

Journal of Applied Physiology

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Control of skin blood flow, sweating, and heart rate: role of skin vs. core temperature.

Wyss¹,

Brengelmann²,

Johnson³

et al. 1974

Journal of Applied Physiology

180

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Disparities in ventilatory and circulatory responses to bicycle and treadmill exercise.

Niederberger¹,

Bruce²,

Kusumi³

et al. 1974

Heart

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Haemodynamic and ventilatory responses, during multilevel bicycle exercise and during multilevel symptomlimited treadmill exercise, were compared in 8 patients with coronary heart disease and in one sedentary middle-aged man, at known percentages of each subject's maximal oxygen uptake (Po2max), determined on a treadmill.When comparisons were made at the same percentages of Vo2max on treadmill or bicycle, we found higher arterial mean pressure, heart rate, pressure-rate product, peripheral vascular resistance, and pulmonary ventilation during bicycle exercise. Cardiac output was the same and stroke volume was lower on the bicycle.We conclude that in terms of arterial blood pressure and pressure-rate product, all conditions being as mentioned above, bicycle exercise constitutes a greater stress on the cardiovascular system at any given oxygen uptake than does treadmill exercise.

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M Niederberger

Human Splanchnic and Forearm Vasoconstrictor Responses to Reductions of Right Atrial and Aortic Pressures

Competition between cutaneous vasodilator and vasoconstrictor reflexes in man.

Control of skin blood flow, sweating, and heart rate: role of skin vs. core temperature.

Disparities in ventilatory and circulatory responses to bicycle and treadmill exercise.

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